CN113950235A

CN113950235A - Precise air conditioner control system for machine room

Info

Publication number: CN113950235A
Application number: CN202111392908.8A
Authority: CN
Inventors: 雷卫平
Original assignee: Zhejiang Redis Technology Co ltd
Current assignee: Zhejiang Redis Technology Co ltd
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-01-18

Abstract

The invention discloses a precise air conditioner control system for a machine room, which comprises a plurality of precise air conditioners; the environment detection module is used for detecting real-time temperature and real-time humidity in the control area to obtain temperature detection data and humidity detection data; the storage module is used for storing a plurality of groups of historical temperature detection data, historical humidity detection data, historical temperature adjustment instructions and historical humidity adjustment instructions; the model training module is used for taking the historical temperature detection data and the historical humidity detection data as input, taking the corresponding historical temperature adjustment instruction and the historical humidity adjustment instruction as output, and training to obtain the high-precision control model of the air conditioner; the instruction generating module is used for inputting the temperature detection data and the humidity detection data into the high-precision control model of the air conditioner to obtain a temperature adjusting instruction and a humidity adjusting instruction; and the precision air conditioner adjusts the temperature and the humidity in the control area according to the temperature adjustment instruction and the humidity adjustment instruction. The invention realizes the rapid adjustment of the temperature and the humidity in each control area.

Description

Precise air conditioner control system for machine room

Technical Field

The invention relates to the technical field of air conditioner control, in particular to a precise air conditioner control system for a machine room.

Background

Modern electronic equipment computer lab is generally used for putting accurate electronic equipment such as computer equipment and stored program controlled switch product, and in order to improve the stable and reliability of use of these accurate electronic equipment, need strictly control the temperature humidity of environment at specific range, consequently all adopt the computer lab precision air conditioner to carry out temperature and humidity regulation and control in the modern electronic equipment computer lab. The precision air conditioner in the machine room is a special air conditioner designed for the machine room of modern electronic equipment, and the working precision and the reliability of the precision air conditioner are much higher than those of a common air conditioner. The precise air conditioner in the machine room consists of a large number of dense electronic elements. The temperature and the relative humidity of the machine room can be controlled to be plus or minus 1 ℃, so that the service life and the reliability of the precision electronic equipment are greatly improved. At present, each regional requirement inconsistent to the humiture in the modern electronic equipment computer lab generally utilizes the inside humiture sensor of computer lab precision air conditioner to carry out humiture detection to judge whether adjust the computer lab precision air conditioner according to predetermined humiture threshold value, and then adjust the humiture in each region in the modern electronic equipment computer lab, but this kind of mode is too big to the adjustment range of humiture adjustment, and the precision that leads to the humiture adjustment is not high enough, influences the use of precision electronic equipment in each region, causes the energy waste of the computer lab precision air conditioner easily simultaneously.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a precise air conditioner control system for a machine room, which is used for realizing high-precision and rapid adjustment of the temperature and humidity in each control area in the machine room.

In order to achieve the purpose, the invention provides the following technical scheme: a precision air conditioning control system for a machine room, comprising:

the system comprises a plurality of precise air conditioners, a plurality of control areas and a control unit, wherein the precise air conditioners are distributed in the control areas which are uniformly divided in advance in a machine room, and each control area is associated with a corresponding area address in advance;

the environment detection module is arranged in each control area and used for detecting real-time temperature and real-time humidity in the control area to obtain corresponding temperature detection data and humidity detection data, and the temperature detection data and the humidity detection data are associated with corresponding area addresses;

the storage module is used for storing a plurality of groups of historical temperature detection data and a plurality of groups of historical humidity detection data which are obtained by pre-measurement, and storing a plurality of groups of historical temperature adjustment instructions and a plurality of groups of historical humidity adjustment instructions which are generated in advance;

the historical temperature detection data is associated with the historical temperature adjustment instructions, and the historical humidity detection data is associated with the historical humidity adjustment instructions;

the model training module is connected with the storage module and is used for taking the historical temperature detection data and the historical humidity detection data as input, taking the corresponding historical temperature adjustment instruction and the historical humidity adjustment instruction as output and training to obtain an air conditioner high-precision control model;

the instruction generating module is respectively connected with the environment detection module and the plurality of precision air conditioners and is used for inputting the temperature detection data and the humidity detection data into the air conditioner high-precision control model to obtain a temperature adjusting instruction and a humidity adjusting instruction, and the temperature adjusting instruction and the humidity adjusting instruction are associated with corresponding area addresses;

and the precision air conditioner adjusts the temperature and the humidity in the control area corresponding to the area address according to the temperature adjustment instruction and the humidity adjustment instruction respectively.

Further, the environment detection module includes:

the temperature detection unit is used for detecting the real-time temperature in the control area to obtain the temperature detection data;

the humidity detection unit is used for detecting the real-time humidity in the control area to obtain the humidity detection data;

the first storage unit is used for storing a first temperature threshold value, a second temperature threshold value, a first humidity threshold value and a second humidity threshold value, wherein the first temperature threshold value is smaller than the second temperature threshold value, and the first humidity threshold value is smaller than the second humidity threshold value;

the first comparison unit is respectively connected with the temperature detection unit, the humidity detection unit and the storage unit and is used for comparing the temperature detection data with the first temperature threshold and the second temperature threshold and filtering the temperature detection data when the temperature detection data is smaller than the first temperature threshold or the temperature detection data is larger than the second temperature threshold;

and comparing the humidity detection data with the first humidity threshold and the second humidity threshold, and filtering the humidity detection data when the humidity detection data is smaller than the first humidity threshold or the humidity detection data is larger than the second humidity threshold.

Further, the temperature detection unit includes a temperature sensor, and the humidity detection unit includes a humidity sensor.

Further, the precision air conditioner control system that computer lab was used still includes alarm module, connects environment detection module, alarm module includes:

the second storage unit is used for storing a third temperature threshold and a third humidity threshold, wherein the third temperature threshold is greater than the first temperature threshold and less than the second temperature threshold, and the third humidity threshold is greater than the first humidity threshold and less than the second humidity threshold;

the second comparison unit is connected with the second storage unit and used for comparing the temperature detection data with the second temperature threshold and the third temperature threshold respectively and generating a first alarm signal when the temperature detection data is greater than the third temperature threshold and smaller than the second temperature threshold;

comparing the humidity detection data with the second humidity threshold and the third humidity threshold respectively, and generating a second alarm signal when the humidity detection data is greater than the third humidity threshold and smaller than the second humidity threshold;

and the alarm unit is connected with the second comparison unit and used for alarming according to the first alarm signal and the second alarm signal respectively.

Further, the alarm unit comprises a vibration alarm, an audible and visual alarm, an ultrasonic alarm, an electric field alarm, a microwave alarm, an infrared alarm or a laser alarm.

Further, the precision air conditioner control system that computer lab was used still includes communication module, communication module connects respectively environment detection module and an external control terminal for with temperature detection data with humidity detection data send to external control terminal, external control terminal includes:

a receiving unit for receiving the temperature detection data and the humidity detection data;

and the display unit is connected with the receiving unit and used for displaying the temperature detection data and the humidity detection data.

Further, the display unit comprises a touch display screen.

Further, the communication module further comprises an encryption unit, which is used for encrypting the temperature detection data and the humidity detection data according to a preset key and sending the encrypted temperature detection data and the encrypted humidity detection data to the external control terminal.

Further, the external control terminal further comprises a decryption unit, which is respectively connected to the receiving unit and the display unit, and is configured to decrypt the encrypted temperature detection data and the encrypted humidity detection data according to the preset key, and send the decrypted data to the display unit.

The invention has the beneficial effects that:

according to the invention, the temperature detection data and the humidity detection data are obtained by arranging the environment detection module in the control area for measurement, the pre-stored historical temperature detection data, historical humidity detection data and historical temperature adjustment instructions and historical humidity adjustment instructions generated at the fastest response speed of the precision air conditioner are used for training to obtain the high-precision control model of the air conditioner, and the detected temperature detection data and humidity detection data are input into the high-precision control model of the air conditioner to obtain the temperature adjustment instructions and humidity adjustment instructions, so that the precision air conditioner can perform high-precision rapid adjustment on the temperature and the humidity in the corresponding control area according to the temperature adjustment instructions and the humidity adjustment instructions.

Drawings

Fig. 1 is a schematic structural diagram of a precision air conditioning control system according to the present invention.

Reference numerals: 1. a precision air conditioner; 2. an environment detection module; 21. a temperature detection unit; 22. a humidity detection unit; 23. a first storage unit; 24. a first comparing unit; 3. a storage module; 4. a model training module; 5. an instruction generation module; 6. an alarm module; 61. a second storage unit; 62. a second comparing unit; 63. an alarm unit; 7. a communication module; 71. an encryption unit; 8. an external control terminal; 81. a receiving unit; 82. a display unit; 83. and a decryption unit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1, the precision air conditioning control system for a machine room of the present embodiment includes:

the plurality of precise air conditioners 1 are distributed in a plurality of control areas which are uniformly divided in the machine room in advance, and each control area is associated with a corresponding area address in advance;

the environment detection module 2 is arranged in each control area and used for detecting real-time temperature and real-time humidity in the control area to obtain corresponding temperature detection data and humidity detection data, and the temperature detection data and the humidity detection data are associated with corresponding area addresses;

the storage module 3 is used for storing a plurality of groups of historical temperature detection data and a plurality of groups of historical humidity detection data which are obtained by measurement in advance, and storing a plurality of groups of historical temperature adjustment instructions and a plurality of groups of historical humidity adjustment instructions which are generated in advance;

the model training module 4 is connected with the storage module 3 and is used for taking the historical temperature detection data and the historical humidity detection data as input, taking the corresponding historical temperature adjustment instruction and the historical humidity adjustment instruction as output and training to obtain the high-precision control model of the air conditioner;

the instruction generating module 5 is respectively connected with the environment detection module 2 and the plurality of precision air conditioners 1 and is used for inputting temperature detection data and humidity detection data into the high-precision control model of the air conditioners to obtain a temperature adjusting instruction and a humidity adjusting instruction, and the temperature adjusting instruction and the humidity adjusting instruction are associated with corresponding area addresses;

the precision air conditioner 1 adjusts the temperature and the humidity in the control area corresponding to the area address according to the temperature adjustment instruction and the humidity adjustment instruction respectively.

In this embodiment, the machine room is pre-divided into four control areas, which are a first control area, a second control area, a third control area and a fourth control area. The area addresses associated with the first control area, the second control area, the third control area and the fourth control area are one, two, three and four respectively. Historical temperature detection data stored in advance by the storage module are associated with historical temperature adjustment instructions, and historical humidity detection data are associated with historical humidity adjustment instructions. The historical temperature adjusting instruction and the historical humidity adjusting instruction can be generated at the highest response speed by the controller in the precision air conditioner 1 according to the historical temperature detection data and the historical humidity detection data respectively, and the historical temperature adjusting instruction and the historical humidity adjusting instruction generated at the highest response speed by the controller in the precision air conditioner 1 are used as training data of the model training module 4, so that the response speed of the precision air conditioner 1 to the temperature and humidity in each control area can be effectively increased, the hysteresis is reduced, and the rapid temperature and humidity adjustment is realized.

According to the technical scheme, the environment detection module 2 is arranged in the control area to measure and obtain temperature detection data and humidity detection data, the pre-stored historical temperature detection data, historical humidity detection data and historical temperature adjustment instructions and historical humidity adjustment instructions generated at the fastest response speed of the precision air conditioner are used for training to obtain the high-precision control model of the air conditioner, the detected temperature detection data and humidity detection data are input into the high-precision control model of the air conditioner to obtain temperature adjustment instructions and humidity adjustment instructions, and the precision air conditioner can perform high-precision rapid adjustment on the temperature and the humidity in the corresponding control area according to the temperature adjustment instructions and the humidity adjustment instructions.

Preferably, the environment detection module 2 includes:

the temperature detection unit 21 is used for detecting the real-time temperature in the control area to obtain temperature detection data;

the humidity detection unit 22 is used for detecting the real-time humidity in the control area to obtain humidity detection data;

the first storage unit 23 is configured to store a first temperature threshold, a second temperature threshold, a first humidity threshold, and a second humidity threshold, where the first temperature threshold is smaller than the second temperature threshold, and the first humidity threshold is smaller than the second humidity threshold;

the first comparing unit 24 is respectively connected with the temperature detecting unit 21, the humidity detecting unit 22 and the storage unit, and is used for comparing the temperature detection data with a first temperature threshold and a second temperature threshold and filtering the temperature detection data when the temperature detection data is smaller than the first temperature threshold or the temperature detection data is larger than the second temperature threshold;

In this embodiment, by providing the first comparing unit 24, the temperature detection data is compared with the first temperature threshold and the second temperature threshold respectively, and the portions of the temperature detection data smaller than the first temperature threshold and larger than the second temperature threshold are filtered, so that the temperature detection data is effectively filtered. Wherein the first temperature threshold may be-30 deg.C, and the second temperature threshold may be 70 deg.C. And when the temperature detection data is lower than minus 30 ℃ or higher than 70 ℃, the current temperature detection data is abnormal and needs to be filtered, so that the abnormal temperature detection data is prevented from being input into the high-precision control model of the air conditioner, and an abnormal temperature control instruction is generated.

In this embodiment, the first comparing unit 24 further compares the humidity detection data with the first humidity threshold and the second humidity threshold, respectively, and filters the portions of the humidity detection data smaller than the first humidity threshold and larger than the second humidity threshold, so as to implement effective filtering on the humidity detection data. Wherein the first humidity threshold may be 10% and the second humidity threshold may be 90%. When the humidity detection data is lower than 10% or higher than 90%, it is indicated that the current humidity detection data is abnormal, and the abnormal humidity data needs to be filtered out, so that the abnormal humidity data is prevented from being input into the high-precision control model of the air conditioner, and an abnormal humidity control instruction is generated.

Preferably, the temperature detection unit 21 includes a temperature sensor, and the humidity detection unit 22 includes a humidity sensor. In this embodiment, temperature sensor and humidity transducer are the outside high accuracy sensor of precision air conditioner 1, are favorable to promoting this technical scheme's detection precision.

Preferably, the precision air-conditioning control system for the machine room further comprises an alarm module 6 connected to the environment detection module 2, wherein the alarm module 6 comprises:

the second storage unit 61 is configured to store a third temperature threshold and a third humidity threshold, where the third temperature threshold is greater than the first temperature threshold and smaller than the second temperature threshold, and the third humidity threshold is greater than the first humidity threshold and smaller than the second humidity threshold;

the second comparing unit 62 is connected to the second storage unit 61, and is configured to compare the temperature detection data with a second temperature threshold and a third temperature threshold, respectively, and generate a first alarm signal when the temperature detection data is greater than the third temperature threshold and smaller than the second temperature threshold;

comparing the humidity detection data with a second humidity threshold and a third humidity threshold respectively, and generating a second alarm signal when the humidity detection data is greater than the third humidity threshold and smaller than the second humidity threshold;

and the alarm unit 63 is connected with the second comparison unit 62 and is used for giving an alarm according to the first alarm signal and the second alarm signal respectively.

In the present embodiment, the second comparing unit 62 compares the temperature detection data with a second temperature threshold and a third temperature threshold, respectively, wherein the third temperature threshold may be 50 ℃. When the temperature detection data is higher than 50 ℃ and lower than 70 ℃, the temperature in the current control area is over high, and high-temperature damage to precision instruments in the machine room is easily caused, so that a first alarm signal is generated, and an alarm unit 63 is used for alarming and reminding operators in the machine room.

In the present embodiment, the second comparing unit 62 further compares the humidity detection data with a second humidity threshold and a third humidity threshold, respectively, wherein the third humidity threshold may be 70%. When the humidity detection data is larger than 70% and smaller than 90%, it is indicated that the humidity in the current control area is too high, so that the precision instruments in the machine room are easily affected with damp and damaged due to high humidity, a second alarm signal is generated, and an alarm unit 63 is used for alarming and reminding operators in the machine room.

Preferably, the alarm unit 63 includes a vibration alarm, an audible and visual alarm, an ultrasonic alarm, an electric field alarm, a microwave alarm, an infrared alarm or a laser alarm.

In this embodiment, adopt audible-visual annunciator as alarm unit 63, can report to the police to remind computer lab operating personnel through the form of reputation simultaneously, computer lab operating personnel's attention draws attention more easily, and the success rate of reporting to the police is higher, has promoted this technical scheme's security.

Preferably, the precision air conditioning control system for the machine room further comprises a communication module 7, the communication module is respectively connected with the environment detection module 2 and an external control terminal 8, and is used for sending the temperature detection data and the humidity detection data to the external control terminal, and the external control terminal 8 comprises:

a receiving unit 81 for receiving temperature detection data and humidity detection data;

and the display unit 82 is connected with the receiving unit 81 and is used for displaying the temperature detection data and the humidity detection data.

Preferably, the display unit 82 includes a touch display screen.

In this embodiment, the temperature detection data and the humidity detection data detected by the environment detection module 2 are displayed in real time through the touch display screen, so that the outside machine room management personnel can monitor the temperature and the humidity in each control area in the machine room in real time.

Preferably, the communication module 7 further includes an encryption unit 71, configured to encrypt the temperature detection data and the humidity detection data according to a preset key, and send the encrypted temperature detection data and humidity detection data to the external control terminal. Through set up encryption unit 71 in communication module 7, realized that communication module carries out data encryption to temperature detection data and humidity detection data to the in-process of external control terminal 8 with temperature detection data and humidity detection data transmission, promoted data transmission's security.

Preferably, the external control terminal 8 further includes a decryption unit 83, respectively connected to the receiving unit 81 and the display unit, for decrypting the encrypted temperature detection data and humidity detection data according to the preset key and sending the decrypted data to the display unit. By arranging the decryption unit 83 in the external control terminal 8, the external control terminal decrypts the encrypted temperature detection data and humidity detection data received by the receiving unit, obtains the decrypted temperature detection data and humidity detection data, and sends the decrypted temperature detection data and humidity detection data to the display unit 82 for display.

The working principle is as follows:

before each precision air conditioner 1 is controlled, a plurality of groups of historical temperature data, a plurality of groups of historical humidity data, historical temperature adjusting instructions of the historical temperature data and historical humidity adjusting instructions corresponding to the historical humidity data need to be collected, and an air conditioner high-precision control model is obtained through training according to the historical temperature data, the historical humidity data, the historical temperature adjusting instructions and the historical humidity adjusting instructions. When the precision air conditioner 1 in each control area of the machine room operates, the temperature sensor and the humidity sensor in the control area are started, the real-time temperature and the real-time humidity in the control area are detected, and temperature detection data and humidity detection data are generated. The temperature sensor and the humidity sensor in each control area input the detected temperature detection data and humidity detection data associated with the area address into the air conditioner high-precision control model to obtain a corresponding temperature adjustment instruction and humidity adjustment instruction associated with the area address, and send the temperature adjustment instruction and humidity adjustment instruction to the precise air conditioner 1 in the control area corresponding to the area address, so that the high-precision rapid adjustment of the temperature and the humidity in each control area is realized.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A precision air conditioning control system for a machine room, comprising:

2. The precision air-conditioning control system for the machine room according to claim 1, characterized in that: the environment detection module includes:

3. The precision air-conditioning control system for the machine room according to claim 2, characterized in that: the temperature detection unit includes a temperature sensor, and the humidity detection unit includes a humidity sensor.

4. The precision air-conditioning control system for the machine room according to claim 2, characterized in that: the precision air conditioner control system that the computer lab was used still includes alarm module, connects environment detection module, alarm module includes:

5. The precision air-conditioning control system for the machine room according to claim 4, characterized in that: the alarm unit comprises a vibration alarm, an audible and visual alarm, an ultrasonic alarm, an electric field alarm, a microwave alarm, an infrared alarm or a laser alarm.

6. The precision air-conditioning control system for the machine room according to claim 1, characterized in that: the precision air conditioner control system that computer lab was used still includes communication module, communication module connects respectively environment detection module and an external control terminal for with temperature detection data with humidity detection data send to external control terminal, external control terminal includes:

7. The precision air-conditioning control system for the machine room according to claim 6, characterized in that: the display unit comprises a touch display screen.

8. The precision air-conditioning control system for the machine room according to claim 6, characterized in that: the communication module further comprises an encryption unit which is used for encrypting the temperature detection data and the humidity detection data according to a preset key and sending the encrypted temperature detection data and the encrypted humidity detection data to the external control terminal.

9. The precision air-conditioning control system for the machine room according to claim 8, characterized in that: the external control terminal further comprises a decryption unit which is respectively connected with the receiving unit and the display unit and used for decrypting the encrypted temperature detection data and the encrypted humidity detection data according to the preset key and sending the decrypted temperature detection data and the encrypted humidity detection data to the display unit.